Skeletal muscle wasting is a defining feature of cancer cachexia, a multifactorial syndrome that drastically compromises patient quality of life and treatment outcomes. Mitochondrial dysfunction is a major contributor to skeletal muscle wasting in cancer cachexia, yet the upstream molecular drivers remain elusive. Here we show that cancer impairs the activity of cAMP-dependent protein kinase A (PKA) and of its transcriptional effector CREB1 in skeletal muscle, ultimately contributing to the downregulation of a core transcriptional network that supports mitochondrial integrity and function. The restoration of cAMP-PKA-CREB1 signalling through pharmacological inhibition of the cAMP-hydrolysing phosphodiesterase 4 (PDE4) rescues the expression of mitochondrial-related genes, improves mitochondrial function and mitigates skeletal muscle wasting in male mice. Altogether, our data identify tumour-induced suppression of the cAMP-PKA-CREB1 axis as a central mechanism contributing to mitochondrial dysfunction in skeletal muscle during cancer cachexia. Furthermore, these findings highlight PDE4, particularly the PDE4D isoform, as a potential therapeutic target to preserve muscle mitochondrial function and counteract muscle wasting in cancer cachexia.
Impaired cAMP-PKA-CREB1 signalling drives mitochondrial dysfunction in skeletal muscle during cancer cachexia / E. Angelino, L. Bodo, R. Sartori, V. Malacarne, B. D'Anna, N. Formaggio, S. Barua, T. Raiteri, A. Lauria, S. Reano, A. Murabito, M. Nicolau, F. Ferrero, C. Pezzini, G. Rossino, F. Favero, M. Valmasoni, N. Filigheddu, A. Menga, D. Corà, E. Hirsch, S. Oliviero, V. Sartorelli, V. Proserpio, A. Ghigo, M. Sandri, P.E. Porporato, D. Talarico, G. Caretti, A. Graziani. - In: NATURE METABOLISM. - ISSN 2522-5812. - (2025). [Epub ahead of print] [10.1038/s42255-025-01397-5]
Impaired cAMP-PKA-CREB1 signalling drives mitochondrial dysfunction in skeletal muscle during cancer cachexia
G. Caretti;
2025
Abstract
Skeletal muscle wasting is a defining feature of cancer cachexia, a multifactorial syndrome that drastically compromises patient quality of life and treatment outcomes. Mitochondrial dysfunction is a major contributor to skeletal muscle wasting in cancer cachexia, yet the upstream molecular drivers remain elusive. Here we show that cancer impairs the activity of cAMP-dependent protein kinase A (PKA) and of its transcriptional effector CREB1 in skeletal muscle, ultimately contributing to the downregulation of a core transcriptional network that supports mitochondrial integrity and function. The restoration of cAMP-PKA-CREB1 signalling through pharmacological inhibition of the cAMP-hydrolysing phosphodiesterase 4 (PDE4) rescues the expression of mitochondrial-related genes, improves mitochondrial function and mitigates skeletal muscle wasting in male mice. Altogether, our data identify tumour-induced suppression of the cAMP-PKA-CREB1 axis as a central mechanism contributing to mitochondrial dysfunction in skeletal muscle during cancer cachexia. Furthermore, these findings highlight PDE4, particularly the PDE4D isoform, as a potential therapeutic target to preserve muscle mitochondrial function and counteract muscle wasting in cancer cachexia.
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